#include "stdafx.h"
#include "../xrRender/resourcemanager.h"
#include "blender_light_occq.h"
#include "blender_light_mask.h"
#include "blender_light_direct.h"
#include "blender_light_point.h"
#include "blender_light_spot.h"
#include "blender_light_reflected.h"
#include "blender_combine.h"
#include "blender_bloom_build.h"
#include "blender_luminance.h"
#include "blender_ssao.h"

#include "../xrRender/dxRenderDeviceRender.h"

void	CRenderTarget::u_setrt			(const ref_rt& _1, const ref_rt& _2, const ref_rt& _3, IDirect3DSurface9* zb)
{
	VERIFY									(_1);
	dwWidth									= _1->dwWidth;
	dwHeight								= _1->dwHeight;
	if (_1) RCache.set_RT(_1->pRT,	0); else RCache.set_RT(NULL,0);
	if (_2) RCache.set_RT(_2->pRT,	1); else RCache.set_RT(NULL,1);
	if (_3) RCache.set_RT(_3->pRT,	2); else RCache.set_RT(NULL,2);
	RCache.set_ZB							(zb);
//	RImplementation.rmNormal				();
}

void	CRenderTarget::u_setrt			(u32 W, u32 H, IDirect3DSurface9* _1, IDirect3DSurface9* _2, IDirect3DSurface9* _3, IDirect3DSurface9* zb)
{
	VERIFY									(_1);
	dwWidth									= W;
	dwHeight								= H;
	VERIFY									(_1);
	RCache.set_RT							(_1,	0);
	RCache.set_RT							(_2,	1);
	RCache.set_RT							(_3,	2);
	RCache.set_ZB							(zb);
//	RImplementation.rmNormal				();
}

void	CRenderTarget::u_stencil_optimize	(BOOL		common_stencil)
{
	VERIFY	(RImplementation.o.nvstencil);
	RCache.set_ColorWriteEnable	(FALSE);
	u32		Offset;
	float	_w					= float(Device.dwWidth);
	float	_h					= float(Device.dwHeight);
	u32		C					= color_rgba	(255,255,255,255);
	float	eps					= EPS_S;
	FVF::TL* pv					= (FVF::TL*) RCache.Vertex.Lock	(4,g_combine->vb_stride,Offset);
	pv->set						(eps,			float(_h+eps),	eps,	1.f, C, 0, 0);	pv++;
	pv->set						(eps,			eps,			eps,	1.f, C, 0, 0);	pv++;
	pv->set						(float(_w+eps),	float(_h+eps),	eps,	1.f, C, 0, 0);	pv++;
	pv->set						(float(_w+eps),	eps,			eps,	1.f, C, 0, 0);	pv++;
	RCache.Vertex.Unlock		(4,g_combine->vb_stride);
	RCache.set_CullMode			(CULL_NONE	);
	if (common_stencil)			RCache.set_Stencil	(TRUE,D3DCMP_LESSEQUAL,dwLightMarkerID,0xff,0x00);	// keep/keep/keep
	RCache.set_Element			(s_occq->E[1]	);
	RCache.set_Geometry			(g_combine		);
	RCache.Render				(D3DPT_TRIANGLELIST,Offset,0,4,0,2);
}

// 2D texgen (texture adjustment matrix)
void	CRenderTarget::u_compute_texgen_screen	(Fmatrix& m_Texgen)
{
	float	_w						= float(Device.dwWidth);
	float	_h						= float(Device.dwHeight);
	float	o_w						= (.5f / _w);
	float	o_h						= (.5f / _h);
	Fmatrix			m_TexelAdjust		= 
	{
		0.5f,				0.0f,				0.0f,			0.0f,
		0.0f,				-0.5f,				0.0f,			0.0f,
		0.0f,				0.0f,				1.0f,			0.0f,
		0.5f + o_w,			0.5f + o_h,			0.0f,			1.0f
	};
	m_Texgen.mul	(m_TexelAdjust,RCache.xforms.m_wvp);
}

// 2D texgen for jitter (texture adjustment matrix)
void	CRenderTarget::u_compute_texgen_jitter	(Fmatrix&		m_Texgen_J)
{
	// place into	0..1 space
	Fmatrix			m_TexelAdjust		= 
	{
		0.5f,				0.0f,				0.0f,			0.0f,
		0.0f,				-0.5f,				0.0f,			0.0f,
		0.0f,				0.0f,				1.0f,			0.0f,
		0.5f,				0.5f,				0.0f,			1.0f
	};
	m_Texgen_J.mul	(m_TexelAdjust,RCache.xforms.m_wvp);

	// rescale - tile it
	float	scale_X			= float(Device.dwWidth)	/ float(TEX_jitter);
	float	scale_Y			= float(Device.dwHeight)/ float(TEX_jitter);
	float	offset			= (.5f / float(TEX_jitter));
	m_TexelAdjust.scale			(scale_X,	scale_Y,1.f	);
	m_TexelAdjust.translate_over(offset,	offset,	0	);
	m_Texgen_J.mulA_44			(m_TexelAdjust);
}

u8		fpack			(float v)				{
	s32	_v	= iFloor	(((v+1)*.5f)*255.f + .5f);
	clamp	(_v,0,255);
	return	u8(_v);
}
u8		fpackZ			(float v)				{
	s32	_v	= iFloor	(_abs(v)*255.f + .5f);
	clamp	(_v,0,255);
	return	u8(_v);
}
Fvector	vunpack			(s32 x, s32 y, s32 z)	{
	Fvector	pck;
	pck.x	= (float(x)/255.f - .5f)*2.f;
	pck.y	= (float(y)/255.f - .5f)*2.f;
	pck.z	= -float(z)/255.f;
	return	pck;
}
Fvector	vunpack			(Ivector src)			{
	return	vunpack	(src.x,src.y,src.z);
}
Ivector	vpack			(Fvector src)
{
	Fvector			_v;
	int	bx			= fpack	(src.x);
	int by			= fpack	(src.y);
	int bz			= fpackZ(src.z);
	// dumb test
	float	e_best	= flt_max;
	int		r=bx,g=by,b=bz;
#ifdef DEBUG
	int		d=0;
#else
	int		d=3;
#endif
	for (int x=_max(bx-d,0); x<=_min(bx+d,255); x++)
	for (int y=_max(by-d,0); y<=_min(by+d,255); y++)
	for (int z=_max(bz-d,0); z<=_min(bz+d,255); z++)
	{
		_v				= vunpack(x,y,z);
		float	m		= _v.magnitude();
		float	me		= _abs(m-1.f);
		if	(me>0.03f)	continue;
		_v.div	(m);
		float	e		= _abs(src.dotproduct(_v)-1.f);
		if (e<e_best)	{
			e_best		= e;
			r=x,g=y,b=z;
		}
	}
	Ivector		ipck;
	ipck.set	(r,g,b);
	return		ipck;
}

void	generate_jitter	(DWORD*	dest, u32 elem_count)
{
	const	int		cmax		= 8;
	svector<Ivector2,cmax>		samples;
	while (samples.size()<elem_count*2)
	{
		Ivector2	test;
		test.set	(::Random.randI(0,256),::Random.randI(0,256));
		BOOL		valid = TRUE;
		for (u32 t=0; t<samples.size(); t++)
		{
			int		dist	= _abs(test.x-samples[t].x)+_abs(test.y-samples[t].y);
			if (dist<32)	{
				valid		= FALSE;
				break;
			}
		}
		if (valid)	samples.push_back	(test);
	}
	for	(u32 it=0; it<elem_count; it++, dest++)
		*dest	= color_rgba(samples[2*it].x,samples[2*it].y,samples[2*it+1].y,samples[2*it+1].x);
}

CRenderTarget::CRenderTarget		()
{
	param_blur			= 0.f;
	param_gray			= 0.f;
	param_noise			= 0.f;
	param_duality_h		= 0.f;
	param_duality_v		= 0.f;
	param_noise_fps		= 25.f;
	param_noise_scale	= 1.f;

	im_noise_time		= 1/100;
	im_noise_shift_w	= 0;
	im_noise_shift_h	= 0;

	param_color_base	= color_rgba(127,127,127,	0);
	param_color_gray	= color_rgba(85,85,85,		0);
	param_color_add.set( 0.0f, 0.0f, 0.0f );

	dwAccumulatorClearMark			= 0;
	dxRenderDeviceRender::Instance().Resources->Evict			();

	// Blenders
	b_occq							= new CBlender_light_occq();
	b_accum_mask					= new CBlender_accum_direct_mask();
	b_accum_direct					= new CBlender_accum_direct();
	b_accum_point					= new CBlender_accum_point();
	b_accum_spot					= new CBlender_accum_spot();
	b_accum_reflected				= new CBlender_accum_reflected();
	b_bloom							= new CBlender_bloom_build();
	b_ssao							= new CBlender_SSAO();
	b_luminance						= new CBlender_luminance();
	b_combine						= new CBlender_combine();

	//	NORMAL
	{
		u32		w=Device.dwWidth, h=Device.dwHeight;
		rt_Position.create			(r2_RT_P,		w,h,D3DFMT_A16B16G16R16F);
		rt_Normal.create			(r2_RT_N,		w,h,D3DFMT_A16B16G16R16F);

		// select albedo & accum
		if (RImplementation.o.mrtmixdepth)	
		{
			// NV50
			rt_Color.create			(r2_RT_albedo,	w,h,D3DFMT_A8R8G8B8		);
			rt_Accumulator.create	(r2_RT_accum,	w,h,D3DFMT_A16B16G16R16F);
		}
		else		
		{
			// can't - mix-depth
			if (RImplementation.o.fp16_blend) {
				// NV40
				rt_Color.create				(r2_RT_albedo,		w,h,D3DFMT_A16B16G16R16F);	// expand to full
				rt_Accumulator.create		(r2_RT_accum,		w,h,D3DFMT_A16B16G16R16F);
			} else {
				// R4xx, no-fp-blend,-> albedo_wo
				VERIFY						(RImplementation.o.albedo_wo);
				rt_Color.create				(r2_RT_albedo,		w,h,D3DFMT_A8R8G8B8		);	// normal
				rt_Accumulator.create		(r2_RT_accum,		w,h,D3DFMT_A16B16G16R16F);
				rt_Accumulator_temp.create	(r2_RT_accum_temp,	w,h,D3DFMT_A16B16G16R16F);
			}
		}

		// generic(LDR) RTs
		rt_Generic_0.create			(r2_RT_generic0,w,h,D3DFMT_A8R8G8B8		);
		rt_Generic_1.create			(r2_RT_generic1,w,h,D3DFMT_A8R8G8B8		);
		//	Igor: for volumetric lights
		//rt_Generic_2.create			(r2_RT_generic2,w,h,D3DFMT_A8R8G8B8		);
		//	temp: for higher quality blends
		if (RImplementation.o.advancedpp)
			rt_Generic_2.create			(r2_RT_generic2,w,h,D3DFMT_A16B16G16R16F);
	}

	// OCCLUSION
	s_occq.create					(b_occq,		"r2\\occq");

	// DIRECT (spot)
	D3DFORMAT						depth_format	= (D3DFORMAT)RImplementation.o.HW_smap_FORMAT;

	if (RImplementation.o.HW_smap)
	{
		D3DFORMAT	nullrt				= D3DFMT_R5G6B5;
		if (RImplementation.o.nullrt)	nullrt	= (D3DFORMAT)MAKEFOURCC('N','U','L','L');

		u32	size					=RImplementation.o.smapsize	;
		rt_smap_depth.create		(r2_RT_smap_depth,			size,size,depth_format	);
		rt_smap_surf.create			(r2_RT_smap_surf,			size,size,nullrt		);
		rt_smap_ZB					= NULL;
		s_accum_mask.create			(b_accum_mask,				"r2\\accum_mask");
		s_accum_direct.create		(b_accum_direct,			"r2\\accum_direct");
		if (RImplementation.o.advancedpp)
			s_accum_direct_volumetric.create("accum_volumetric_sun");
	}
	else
	{
		u32	size					=RImplementation.o.smapsize	;
		rt_smap_surf.create			(r2_RT_smap_surf,			size,size,D3DFMT_R32F);
		rt_smap_depth				= NULL;
		R_CHK						(HW.pDevice->CreateDepthStencilSurface	(size,size,D3DFMT_D24X8,D3DMULTISAMPLE_NONE,0,TRUE,&rt_smap_ZB,NULL));
		s_accum_mask.create			(b_accum_mask,				"r2\\accum_mask");
		s_accum_direct.create		(b_accum_direct,			"r2\\accum_direct");
		if (RImplementation.o.advancedpp)
			s_accum_direct_volumetric.create("accum_volumetric_sun");
	}

	// POINT
	{
		s_accum_point.create		(b_accum_point,				"r2\\accum_point_s");
		accum_point_geom_create		();
		g_accum_point.create		(D3DFVF_XYZ,				g_accum_point_vb, g_accum_point_ib);
		accum_omnip_geom_create		();
		g_accum_omnipart.create		(D3DFVF_XYZ,				g_accum_omnip_vb, g_accum_omnip_ib);
	}

	// SPOT
	{
		s_accum_spot.create			(b_accum_spot,				"r2\\accum_spot_s",	"lights\\lights_spot01");
		accum_spot_geom_create		();
		g_accum_spot.create			(D3DFVF_XYZ,				g_accum_spot_vb, g_accum_spot_ib);
	}

	{
		s_accum_volume.create("accum_volumetric", "lights\\lights_spot01");
		accum_volumetric_geom_create();
		g_accum_volumetric.create( D3DFVF_XYZ, g_accum_volumetric_vb, g_accum_volumetric_ib);
	}
			

	// REFLECTED
	{
		s_accum_reflected.create	(b_accum_reflected,			"r2\\accum_refl");
	}

	// BLOOM
	{
		D3DFORMAT	fmt				= D3DFMT_A8R8G8B8;			//;		// D3DFMT_X8R8G8B8
		u32	w=BLOOM_size_X, h=BLOOM_size_Y;
		u32 fvf_build				= D3DFVF_XYZRHW|D3DFVF_TEX4|D3DFVF_TEXCOORDSIZE2(0)|D3DFVF_TEXCOORDSIZE2(1)|D3DFVF_TEXCOORDSIZE2(2)|D3DFVF_TEXCOORDSIZE2(3);
		u32 fvf_filter				= (u32)D3DFVF_XYZRHW|D3DFVF_TEX8|D3DFVF_TEXCOORDSIZE4(0)|D3DFVF_TEXCOORDSIZE4(1)|D3DFVF_TEXCOORDSIZE4(2)|D3DFVF_TEXCOORDSIZE4(3)|D3DFVF_TEXCOORDSIZE4(4)|D3DFVF_TEXCOORDSIZE4(5)|D3DFVF_TEXCOORDSIZE4(6)|D3DFVF_TEXCOORDSIZE4(7);
		rt_Bloom_1.create			(r2_RT_bloom1,	w,h,		fmt);
		rt_Bloom_2.create			(r2_RT_bloom2,	w,h,		fmt);
		g_bloom_build.create		(fvf_build,		RCache.Vertex.Buffer(), RCache.QuadIB);
		g_bloom_filter.create		(fvf_filter,	RCache.Vertex.Buffer(), RCache.QuadIB);
		s_bloom_dbg_1.create		("effects\\screen_set",		r2_RT_bloom1);
		s_bloom_dbg_2.create		("effects\\screen_set",		r2_RT_bloom2);
		s_bloom.create				(b_bloom,					"r2\\bloom");
		f_bloom_factor				= 0.5f;
	}

	//HBAO
	if (RImplementation.o.ssao_opt_data)
	{
		u32		w = 0;
		u32		h = 0;
		if (RImplementation.o.ssao_half_data)
		{
			w = Device.dwWidth / 2;
			h = Device.dwHeight / 2;
		}
		else
		{
			w = Device.dwWidth;
			h = Device.dwHeight;
		}
		D3DFORMAT	fmt = HW.Caps.id_vendor==0x10DE?D3DFMT_R32F:D3DFMT_R16F;

		rt_half_depth.create		(r2_RT_half_depth, w, h, fmt);
		s_ssao.create				(b_ssao, "r2\\ssao");
	}

	//SSAO
	if (RImplementation.o.ssao_blur_on)
	{
		u32		w = Device.dwWidth, h = Device.dwHeight;
		rt_ssao_temp.create			(r2_RT_ssao_temp, w, h, D3DFMT_G16R16F);
		s_ssao.create				(b_ssao, "r2\\ssao");
	}

	// TONEMAP
	{
		rt_LUM_64.create			(r2_RT_luminance_t64,	64, 64,	D3DFMT_A16B16G16R16F	);
		rt_LUM_8.create				(r2_RT_luminance_t8,	8,	8,	D3DFMT_A16B16G16R16F	);
		s_luminance.create			(b_luminance,				"r2\\luminance");
		f_luminance_adapt			= 0.5f;

		t_LUM_src.create			(r2_RT_luminance_src);
		t_LUM_dest.create			(r2_RT_luminance_cur);

		// create pool
		for (u32 it=0; it<HW.Caps.iGPUNum*2; it++)	{
			string256					name;
			sprintf						(name,"%s_%d",	r2_RT_luminance_pool,it	);
			rt_LUM_pool[it].create		(name,	1,	1,	D3DFMT_R32F				);
			u_setrt						(rt_LUM_pool[it],	0,	0,	0			);
			CHK_DX						(HW.pDevice->Clear( 0L, NULL, D3DCLEAR_TARGET,	0x7f7f7f7f,	1.0f, 0L));
		}
		u_setrt						( Device.dwWidth,Device.dwHeight,HW.pBaseRT,NULL,NULL,HW.pBaseZB);
	}

	// COMBINE
	{
		static D3DVERTEXELEMENT9 dwDecl[] =
		{
			{ 0, 0,  D3DDECLTYPE_FLOAT4,	D3DDECLMETHOD_DEFAULT, 	D3DDECLUSAGE_POSITION,	0 },	// pos+uv
			{ 0, 16, D3DDECLTYPE_D3DCOLOR,	D3DDECLMETHOD_DEFAULT, 	D3DDECLUSAGE_COLOR,		0 },
			{ 0, 20, D3DDECLTYPE_FLOAT2,	D3DDECLMETHOD_DEFAULT, 	D3DDECLUSAGE_TEXCOORD,	0 },
			D3DDECL_END()
		};
		s_combine.create					(b_combine,					"r2\\combine");
		s_combine_volumetric.create			("combine_volumetric");
		s_combine_dbg_0.create				("effects\\screen_set",		r2_RT_smap_surf		);	
		s_combine_dbg_1.create				("effects\\screen_set",		r2_RT_luminance_t8	);
		s_combine_dbg_Accumulator.create	("effects\\screen_set",		r2_RT_accum			);
		g_combine_VP.create					(dwDecl,		RCache.Vertex.Buffer(), RCache.QuadIB);
		g_combine.create					(FVF::F_TL,		RCache.Vertex.Buffer(), RCache.QuadIB);
		g_combine_2UV.create				(FVF::F_TL2uv,	RCache.Vertex.Buffer(), RCache.QuadIB);

		u32 fvf_aa_blur				= D3DFVF_XYZRHW|D3DFVF_TEX4|D3DFVF_TEXCOORDSIZE2(0)|D3DFVF_TEXCOORDSIZE2(1)|D3DFVF_TEXCOORDSIZE2(2)|D3DFVF_TEXCOORDSIZE2(3);
		g_aa_blur.create			(fvf_aa_blur,	RCache.Vertex.Buffer(), RCache.QuadIB);

		u32 fvf_aa_AA				= D3DFVF_XYZRHW|D3DFVF_TEX7|D3DFVF_TEXCOORDSIZE2(0)|D3DFVF_TEXCOORDSIZE2(1)|D3DFVF_TEXCOORDSIZE2(2)|D3DFVF_TEXCOORDSIZE2(3)|D3DFVF_TEXCOORDSIZE2(4)|D3DFVF_TEXCOORDSIZE4(5)|D3DFVF_TEXCOORDSIZE4(6);
		g_aa_AA.create				(fvf_aa_AA,		RCache.Vertex.Buffer(), RCache.QuadIB);

		t_envmap_0.create			(r2_T_envs0);
		t_envmap_1.create			(r2_T_envs1);
	}

	// Build textures
	{
		// Build material(s)
		{
			// Surface
			R_CHK						(D3DXCreateVolumeTexture(HW.pDevice,TEX_material_LdotN,TEX_material_LdotH,4,1,0,D3DFMT_A8L8,D3DPOOL_MANAGED,&t_material_surf));
			t_material					= dxRenderDeviceRender::Instance().Resources->_CreateTexture(r2_material);
			t_material->surface_set		(t_material_surf);

			// Fill it (addr: x=dot(L,N),y=dot(L,H))
			D3DLOCKED_BOX				R;
			R_CHK						(t_material_surf->LockBox	(0,&R,0,0));
			for (u32 slice=0; slice<4; slice++)
			{
				for (u32 y=0; y<TEX_material_LdotH; y++)
				{
					for (u32 x=0; x<TEX_material_LdotN; x++)
					{
						u16*	p	=	(u16*)		(LPBYTE (R.pBits) + slice*R.SlicePitch + y*R.RowPitch + x*2);
						float	ld	=	float(x)	/ float	(TEX_material_LdotN-1);
						float	ls	=	float(y)	/ float	(TEX_material_LdotH-1) + EPS_S;
						ls			*=	powf(ld,1/32.f);
						float	fd,fs;

						switch	(slice)
						{
						case 0:	{ // looks like OrenNayar
							fd	= powf(ld,0.75f);		// 0.75
							fs	= powf(ls,16.f)*.5f;
								}	break;
						case 1:	{// looks like Blinn
							fd	= powf(ld,0.90f);		// 0.90
							fs	= powf(ls,24.f);
								}	break;
						case 2:	{ // looks like Phong
							fd	= ld;					// 1.0
							fs	= powf(ls*1.01f,128.f	);
								}	break;
						case 3:	{ // looks like Metal
							float	s0	=	_abs	(1-_abs	(0.05f*_sin(33.f*ld)+ld-ls));
							float	s1	=	_abs	(1-_abs	(0.05f*_cos(33.f*ld*ls)+ld-ls));
							float	s2	=	_abs	(1-_abs	(ld-ls));
							fd		=	ld;				// 1.0
							fs		=	powf	(_max(_max(s0,s1),s2), 24.f);
							fs		*=	powf	(ld,1/7.f);
								}	break;
						default:
							fd	= fs = 0;
						}
						s32		_d	=	clampr	(iFloor	(fd*255.5f),	0,255);
						s32		_s	=	clampr	(iFloor	(fs*255.5f),	0,255);
						if ((y==(TEX_material_LdotH-1)) && (x==(TEX_material_LdotN-1)))	{ _d = 255; _s=255;	}
						*p			=	u16		(_s*256 + _d);
					}
				}
			}
			R_CHK		(t_material_surf->UnlockBox	(0));
			// #ifdef DEBUG
			// R_CHK	(D3DXSaveTextureToFile	("x:\\r2_material.dds",D3DXIFF_DDS,t_material_surf,0));
			// #endif
		}

		// Build noise table
		if (1)
		{
			// Surfaces
			D3DLOCKED_RECT				R[TEX_jitter_count];
			for (int it1=0; it1<TEX_jitter_count-1; it1++)
			{
				string_path					name;
				sprintf						(name,"%s%d",r2_jitter,it1);
				R_CHK	(D3DXCreateTexture	(HW.pDevice,TEX_jitter,TEX_jitter,1,0,D3DFMT_Q8W8V8U8,D3DPOOL_MANAGED,&t_noise_surf[it1]));
				t_noise[it1]					= dxRenderDeviceRender::Instance().Resources->_CreateTexture	(name);
				t_noise[it1]->surface_set	(t_noise_surf[it1]);
				R_CHK						(t_noise_surf[it1]->LockRect	(0,&R[it1],0,0));
			}	

			// Fill it,
			for (u32 y=0; y<TEX_jitter; y++)
			{
				for (u32 x=0; x<TEX_jitter; x++)
				{
					DWORD	data	[TEX_jitter_count-1];
					generate_jitter	(data,TEX_jitter_count-1);
					for (u32 it2=0; it2<TEX_jitter_count-1; it2++)
					{
						u32*	p	=	(u32*)	(LPBYTE (R[it2].pBits) + y*R[it2].Pitch + x*4);
								*p	=	data	[it2];
					}
				}
			}
			
			for (int it3=0; it3<TEX_jitter_count-1; it3++)	{
				R_CHK						(t_noise_surf[it3]->UnlockRect(0));
			}		

			// generate HBAO jitter texture (last)
			int it = TEX_jitter_count - 1;
			string_path					name;
			sprintf						(name,"%s%d",r2_jitter,it);
			R_CHK	(D3DXCreateTexture	(HW.pDevice,TEX_jitter,TEX_jitter,1,0,D3DFMT_A32B32G32R32F,D3DPOOL_MANAGED,&t_noise_surf[it]));
			t_noise[it]					= dxRenderDeviceRender::Instance().Resources->_CreateTexture	(name);
			t_noise[it]->surface_set	(t_noise_surf[it]);
			R_CHK						(t_noise_surf[it]->LockRect	(0,&R[it],0,0));
			
			// Fill it,
			for (u32 y=0; y<TEX_jitter; y++)
			{
				for (u32 x=0; x<TEX_jitter; x++)
				{
					float numDir = 1.0f;
					switch (ps_r_ssao)
					{
						case 1: numDir = 4.0f; break;
						case 2: numDir = 6.0f; break;
						case 3: numDir = 8.0f; break;
					}
					float angle = 2 * PI * ::Random.randF(0.0f, 1.0f) / numDir;
					float dist = ::Random.randF(0.0f, 1.0f);
					//float dest[4];
					
					float*	p	=	(float*)	(LPBYTE (R[it].pBits) + y*R[it].Pitch + x*4*sizeof(float));
					*p = (float)(_cos(angle));
					*(p+1) = (float)(_sin(angle));
					*(p+2) = (float)(dist);
					*(p+3) = 0;
					
					//generate_hbao_jitter	(data,TEX_jitter*TEX_jitter);
				}
			}			
			R_CHK						(t_noise_surf[it]->UnlockRect(0));
		}
	}

	// PP
	s_postprocess.create				("postprocess");
	g_postprocess.create				(D3DFVF_XYZRHW|D3DFVF_DIFFUSE|D3DFVF_SPECULAR|D3DFVF_TEX3,RCache.Vertex.Buffer(),RCache.QuadIB);

	// Menu
	s_menu.create						("distort");
	g_menu.create						(FVF::F_TL,RCache.Vertex.Buffer(),RCache.QuadIB);

	//	Igor: TMP
	//	Create an RT for online screenshot makining
	//u32		w = Device.dwWidth, h = Device.dwHeight;
	//HW.pDevice->CreateOffscreenPlainSurface(Device.dwWidth,Device.dwHeight,D3DFMT_A8R8G8B8,D3DPOOL_SYSTEMMEM,&pFB,NULL);
	//HW.pDevice->CreateOffscreenPlainSurface(Device.dwWidth,Device.dwHeight,rt_Color->fmt,D3DPOOL_SYSTEMMEM,&pFB,NULL);
	D3DSURFACE_DESC	desc;
	HW.pBaseRT->GetDesc(&desc);
	HW.pDevice->CreateOffscreenPlainSurface(Device.dwWidth,Device.dwHeight,desc.Format,D3DPOOL_SYSTEMMEM,&pFB,NULL);

	// 
	dwWidth		= Device.dwWidth;
	dwHeight	= Device.dwHeight;
}

CRenderTarget::~CRenderTarget	()
{
	_RELEASE(pFB);

	// Textures
	t_material->surface_set		(NULL);

#ifdef DEBUG
	_SHOW_REF					("t_material_surf",t_material_surf);
#endif // DEBUG
	_RELEASE					(t_material_surf);

	t_LUM_src->surface_set		(NULL);
	t_LUM_dest->surface_set		(NULL);

#ifdef DEBUG
	ID3DBaseTexture*	pSurf = 0;

	pSurf = t_envmap_0->surface_get();
	if (pSurf) pSurf->Release();
	_SHOW_REF("t_envmap_0 - #small",pSurf);

	pSurf = t_envmap_1->surface_get();
	if (pSurf) pSurf->Release();
	_SHOW_REF("t_envmap_1 - #small",pSurf);
	//_SHOW_REF("t_envmap_0 - #small",t_envmap_0->pSurface);
	//_SHOW_REF("t_envmap_1 - #small",t_envmap_1->pSurface);
#endif // DEBUG
	t_envmap_0->surface_set		(NULL);
	t_envmap_1->surface_set		(NULL);
	t_envmap_0.destroy			();
	t_envmap_1.destroy			();

	_RELEASE					(rt_smap_ZB);

	// Jitter
	for (int it=0; it<TEX_jitter_count; it++)	{
		t_noise	[it]->surface_set	(NULL);
#ifdef DEBUG
		_SHOW_REF("t_noise_surf[it]",t_noise_surf[it]);
#endif // DEBUG
		_RELEASE					(t_noise_surf[it]);
	}

	// 
	accum_spot_geom_destroy		();
	accum_omnip_geom_destroy	();
	accum_point_geom_destroy	();
	accum_volumetric_geom_destroy();

	// Blenders
	xr_delete					(b_combine				);
	xr_delete					(b_luminance			);
	xr_delete					(b_bloom				);
	xr_delete					(b_ssao					);
	xr_delete					(b_accum_reflected		);
	xr_delete					(b_accum_spot			);
	xr_delete					(b_accum_point			);
	xr_delete					(b_accum_direct			);
	xr_delete					(b_accum_mask			);
	xr_delete					(b_occq					);
}

void CRenderTarget::reset_light_marker( bool bResetStencil)
{
	dwLightMarkerID = 5;
	if (bResetStencil)
	{
		RCache.set_ColorWriteEnable	(FALSE);
		u32		Offset;
		float	_w					= float(Device.dwWidth);
		float	_h					= float(Device.dwHeight);
		u32		C					= color_rgba	(255,255,255,255);
		float	eps					= EPS_S;
		FVF::TL* pv					= (FVF::TL*) RCache.Vertex.Lock	(4,g_combine->vb_stride,Offset);
		pv->set						(eps,			float(_h+eps),	eps,	1.f, C, 0, 0);	pv++;
		pv->set						(eps,			eps,			eps,	1.f, C, 0, 0);	pv++;
		pv->set						(float(_w+eps),	float(_h+eps),	eps,	1.f, C, 0, 0);	pv++;
		pv->set						(float(_w+eps),	eps,			eps,	1.f, C, 0, 0);	pv++;
		RCache.Vertex.Unlock		(4,g_combine->vb_stride);
		RCache.set_CullMode			(CULL_NONE	);
		//	Clear everything except last bit
		RCache.set_Stencil	(TRUE,D3DCMP_ALWAYS,dwLightMarkerID,0x00,0xFE, D3DSTENCILOP_ZERO, D3DSTENCILOP_ZERO, D3DSTENCILOP_ZERO);
		//RCache.set_Stencil	(TRUE,D3DCMP_ALWAYS,dwLightMarkerID,0x00,0xFF, D3DSTENCILOP_ZERO, D3DSTENCILOP_ZERO, D3DSTENCILOP_ZERO);
		RCache.set_Element			(s_occq->E[1]	);
		RCache.set_Geometry			(g_combine		);
		RCache.Render				(D3DPT_TRIANGLELIST,Offset,0,4,0,2);

/*
		u32		Offset;
		float	_w					= float(Device.dwWidth);
		float	_h					= float(Device.dwHeight);
		u32		C					= color_rgba	(255,255,255,255);
		float	eps					= 0;
		float	_dw					= 0.5f;
		float	_dh					= 0.5f;
		FVF::TL* pv					= (FVF::TL*) RCache.Vertex.Lock	(4,g_combine->vb_stride,Offset);
		pv->set						(-_dw,		_h-_dh,		eps,	1.f, C, 0, 0);	pv++;
		pv->set						(-_dw,		-_dh,		eps,	1.f, C, 0, 0);	pv++;
		pv->set						(_w-_dw,	_h-_dh,		eps,	1.f, C, 0, 0);	pv++;
		pv->set						(_w-_dw,	-_dh,		eps,	1.f, C, 0, 0);	pv++;
		RCache.Vertex.Unlock		(4,g_combine->vb_stride);
		RCache.set_Element			(s_occq->E[2]	);
		RCache.set_Geometry			(g_combine		);
		RCache.Render				(D3DPT_TRIANGLELIST,Offset,0,4,0,2);
*/
	}
}

void CRenderTarget::increment_light_marker()
{
	dwLightMarkerID += 2;

	//if (dwLightMarkerID>10)
	if (dwLightMarkerID>255)
		reset_light_marker(true);
}